EP3511167A1 - Tête d'éjection de gouttelettes de liquide et appareil d'éjection de gouttelettes de liquide - Google Patents
Tête d'éjection de gouttelettes de liquide et appareil d'éjection de gouttelettes de liquide Download PDFInfo
- Publication number
- EP3511167A1 EP3511167A1 EP17848520.7A EP17848520A EP3511167A1 EP 3511167 A1 EP3511167 A1 EP 3511167A1 EP 17848520 A EP17848520 A EP 17848520A EP 3511167 A1 EP3511167 A1 EP 3511167A1
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- EP
- European Patent Office
- Prior art keywords
- liquid droplet
- nozzle
- droplet ejection
- liquid
- channel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/135—Nozzles
- B41J2/14—Structure thereof only for on-demand ink jet heads
- B41J2/14016—Structure of bubble jet print heads
- B41J2/14032—Structure of the pressure chamber
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/015—Ink jet characterised by the jet generation process
- B41J2/04—Ink jet characterised by the jet generation process generating single droplets or particles on demand
- B41J2/045—Ink jet characterised by the jet generation process generating single droplets or particles on demand by pressure, e.g. electromechanical transducers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
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- B—PERFORMING OPERATIONS; TRANSPORTING
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- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
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- B41J2/14—Structure thereof only for on-demand ink jet heads
- B41J2002/14459—Matrix arrangement of the pressure chambers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/135—Nozzles
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- B41J2002/14475—Structure thereof only for on-demand ink jet heads characterised by nozzle shapes or number of orifices per chamber
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2202/00—Embodiments of or processes related to ink-jet or thermal heads
- B41J2202/01—Embodiments of or processes related to ink-jet heads
- B41J2202/21—Line printing
Definitions
- the present invention relates to a liquid droplet ejection head and a liquid droplet ejection apparatus, and specifically to a liquid droplet ejection head and a liquid droplet ejection apparatus in which viscosity resistance of a liquid to be ejected is reduced on an ejection side of a nozzle to prevent pointed-end ejection and to improve accuracy of an ejection angle.
- Patent Literature 1 an apparatus including a channel having a volume to be changed by a pressure generation element and a nozzle communicating with the channel has been proposed.
- this liquid droplet ejection apparatus when the volume of the channel is reduced by the pressure generation element, a liquid filled in the channel is ejected outward as a droplet through the nozzle. This liquid droplet is dropped onto a recording medium to form an image on the recording medium.
- the viscosity of a liquid used in this liquid droplet ejection apparatus is 8 millipascal second or more.
- the nozzle has a first portion (funnel portion) defining a truncated conical space having a taper angle of 40 degrees or more on a side of a channel and a second portion having a shape (cylindrical shape) in which the cross-sectional area is substantially unchanged on a plane orthogonal to a nozzle direction on an ejection side.
- Patent Literature 1 JP 5428970 B2
- a liquid droplet ejection apparatus when a liquid droplet is ejected, a liquid droplet is not normally formed due to pointed-end ejection from a nozzle in some cases.
- the dropping amount (satellite amount) onto a position deviated from an original dropping position increases, which causes a large image quality deterioration at the time of image formation.
- ejection bending (deviation of ejection angle) at the time of ejecting a liquid droplet also causes a large image quality deterioration at the time of image formation.
- Patent Literature 1 liquid droplet ejection apparatus
- the cause of an image quality deterioration is the second portion (having a cylindrical shape in which the cross-sectional area is substantially unchanged on a plane orthogonal to a nozzle direction) on an ejection side of the nozzle.
- the above-described liquid droplet ejection apparatus (Patent Literature 1) is different from the present invention in ejecting a liquid having a high viscosity of 8 millipascal second or more, and therefore has a shape, an inner diameter, and a length of the nozzle largely different from the present invention.
- the nozzle of the above-described liquid droplet ejection apparatus (Patent Literature 1) has the first portion that is a funnel portion and the second portion having a cylindrical shape.
- the present invention intends to solve the problem in a nozzle only having the second portion in comparison with this liquid droplet ejection apparatus. Therefore, the present invention is not achieved by simply miniaturizing (scaling down) the nozzle of the above-described liquid droplet ejection apparatus (Patent Literature 1).
- an object of the present invention is to provide a liquid droplet ejection head and a liquid droplet ejection apparatus in which viscosity resistance of a liquid to be ejected is reduced on an ejection side of a nozzle to prevent pointed-end ejection and to improve accuracy of an ejection angle.
- the present invention can provide a liquid droplet ejection head and a liquid droplet ejection apparatus in which viscosity resistance of a liquid to be ejected is reduced on an ejection side of a nozzle to prevent pointed-end ejection and to improve accuracy of an ejection angle.
- the present invention is applied to a liquid droplet ejection head that expands and contracts the volume of a channel (pressure chamber) filled with a liquid such as an ink with a pressure generation element to eject the liquid via a nozzle, and is also applied to a liquid droplet ejection apparatus including this liquid droplet ejection head.
- a drive signal generation unit inputs a drive pulse to the pressure generation element.
- a specific means for imparting ejection pressure to a liquid in the channel is not limited, and various known means can be adopted.
- the liquid droplet ejection apparatus to which the present invention is applied may be any one of various known types such as a line type and a serial type, and is not limited to any one of these types.
- the present invention will be described by mainly taking a line type liquid droplet ejection apparatus as an example.
- Fig. 1 is a perspective view illustrating a configuration of a main part of a line type liquid droplet ejection apparatus.
- this liquid droplet ejection apparatus includes a liquid droplet ejection head unit 30 including a plurality of liquid droplet ejection heads 31.
- the liquid droplet ejection head unit 30 is constituted by arranging the plurality of liquid droplet ejection heads 31 corresponding to an ejection width in a width direction of a recording medium. If a required ejection width can be secured by a single liquid droplet ejection head 31, only one liquid droplet ejection head 31 may be used.
- Each of the liquid droplet ejection heads 31 is disposed such that a nozzle surface side in a direction of ejecting a liquid droplet faces a recording surface of a recording medium 10.
- a liquid is supplied to each of the liquid droplet ejection heads 31 from a liquid tank (not illustrated) via a plurality of tubes.
- Fig. 2 is a block diagram illustrating an example of a drive signal generation unit.
- a drive signal (drive pulse) is supplied to each of the liquid droplet ejection heads 31 from a drive signal generation unit 51.
- the drive signal generation unit 51 reads image data stored in a memory 52, generates a drive signal (drive pulse) based on the image data, and supplies the drive signal to each of the liquid droplet ejection heads 31.
- the recording medium 10 is long and fed out from an unwinding roll 10A in a direction of the arrow X in the drawing by a driving means (not illustrated) and is conveyed.
- a driving means not illustrated
- the direction of the arrow X also indicates a conveyance direction of the recording medium 10 in all of the following drawings.
- the long recording medium 10 is wound around and supported by a back roll 20 and is conveyed.
- a liquid droplet is ejected from each of the liquid droplet ejection heads 31 toward the recording medium 10, and an image is formed based on image data.
- the liquid droplet ejection head 31 records an image by conveyance of the recording medium 10 in a predetermined conveyance direction in a stationary state. During conveyance of the recording medium 10, a drive signal based on image data is supplied for each pixel period to eject a liquid droplet, and an image is formed.
- the recording medium 10 on which an image has been formed is dried and wound around a winding roll (not illustrated).
- Fig. 3 is a view illustrating an example of the shear mode type liquid droplet ejection head 31 included in the liquid droplet ejection apparatus.
- Fig. 3(a) is a perspective view illustrating an external appearance thereof with a cross section
- Fig. 3(b) is a cross-sectional view as seen from a side.
- the reference sign 310 indicates a head chip
- the reference sign 22 indicates a nozzle plate joined to a front surface of the head chip 310.
- front surface a surface onto which a liquid droplet is ejected from the head chip 310
- rear surface a surface onto which a liquid droplet is ejected from the head chip 310
- front surface a surface onto which a liquid droplet is ejected from the head chip 310
- rear surface the surface opposite thereto
- outer surfaces located above and below with channels juxtaposed in the head chip 310 interposed therebetween are referred to as “upper surface” and “lower surface”, respectively.
- the head chip 310 has a channel row in which a plurality of channels 28 partitioned by partition walls 27 is juxtaposed.
- the number of the channels 28 constituting the channel row is not limited at all. However, for example, the channel row is constituted by 512 channels 28.
- Each of the partition walls 27 includes a piezoelectric element such as PZT that is an electric/mechanical converting means as the pressure generation element.
- each of the partition walls 27 includes two piezoelectric elements 27a and 27b having different polarization directions.
- the piezoelectric elements 27a and 27b only need to be included in at least a part of each of the partition walls 27, and only need to be disposed such that each of the partition walls 27 can be deformed.
- a piezoelectric material used as the piezoelectric elements 27a and 27b is not particularly limited as long as causing deformation by application of a voltage, and a known piezoelectric material is used.
- the piezoelectric material may be a substrate made of an organic material, but is preferably a substrate made of a piezoelectric nonmetallic material.
- the substrate made of a piezoelectric nonmetallic material include a ceramic substrate formed through a steps such as molding or firing, and a substrate formed through a step such as coating or laminating.
- the organic material include an organic polymer and a hybrid material of an organic polymer and an inorganic material.
- the ceramic substrate examples include PZT (PbZrO 3 -PbTiO 3 ) and third component-added PZT.
- the third component examples include Pb(Mg 1/3 Nb 2/3 )O 3 , Pb(Mn 1/3 Sb 2/3 )O 3 , and Pb(Co 1/3 Nb 2/3 )O 3 .
- the ceramic substrate can be formed using BaTiO 3 , ZnO, LiNbO 3 , LiTaO 3 , or the like.
- the two piezoelectric elements 27a and 27b are bonded so as to have polarization directions opposite to each other to be used.
- the amount of shear deformation is twice that in a case of using one piezoelectric element.
- a driving voltage can be reduced to 1/2 or less.
- each of the channels 28 is a straight type channel in which the opening cross-sectional area and cross-sectional shape are substantially unchanged in a longitudinal direction from the opening on the rear surface side to the opening on the front surface side.
- a front end of the channel 28 communicates with a nozzle 23 formed in a nozzle plate 22, and a rear end thereof is connected to a liquid tube 43 via a common liquid chamber 71 and a liquid supply port 25.
- the nozzle 23 is a through hole formed in the nozzle plate 22, and has a conical (tapered) portion with a diameter becoming gradually smaller toward an outside and a cylindrical (straight) portion continuous with the conical portion and communicating with the outside.
- the inner diameter of the nozzle 23 is much smaller than the inner dimensions of the channel 28, and a connecting part from the channel 28 to the nozzle 23 is stepped.
- the nozzle plate 22 can also be made of a single crystal silicon material.
- the nozzle 23 can be formed by drilling a through hole in the single crystal silicon material.
- a hole can be drilled in the single crystal silicon material by dry etching (for example, reactive gas etching, reactive ion etching, reactive ion beam etching, ion beam etching, or reactive laser beam etching) or wet etching.
- each of the channels 28 On the entire inner surface of each of the channels 28, an electrode 29 made of a metal film is formed in close contact therewith.
- the electrode 29 in the channel 28 is electrically connected to the drive signal generation unit 51 via a connection electrode 300, an anisotropic conductive film 79, and a flexible cable 6.
- the partition wall 27 When a drive signal from the drive signal generation unit 51 is supplied to the electrode 29 in the channel 28, the partition wall 27 is bent and deformed with a joining surface between the piezoelectric elements 27a and 27b as a boundary. By such bending deformation of the partition wall 27, a pressure wave is generated in the channel 28, and pressure for ejection via the nozzle 23 is applied to the liquid in the channel 28.
- Fig. 4 is a cross-sectional view taken along the line iv-iv in Fig. 3(b) for explaining an example of volume change of a channel.
- an expansion pulse (+V) is used as a drive signal.
- both the partition walls 27B and 27C of the channel 28B to be expanded cause shear deformation in a joining surface between the piezoelectric elements 27a and 27b.
- both the partition walls 27B and 27C are bent and deformed toward the outside of the channel 28B to expand the volume of the channel 28B to be expanded. Due to such bending deformation, a negative pressure wave is generated in the channel 28B, and the liquid in the nozzle 23 is drawn into the vicinity of a front end portion of the channel 28 behind the nozzle 23.
- the expansion pulse is a pulse that expands the volume of the channel 28 from the volume in a steady state.
- the expansion pulse changes the voltage from a reference voltage GND to a crest value voltage +V, holds the crest value voltage +V for a predetermined time, and then changes the voltage again to the reference voltage GND.
- a contraction pulse (-V) is used as a drive signal.
- the electrodes 29A and 29C of the channels 28A and 28C adjacent to the channel 28B to be contracted are grounded, and a contraction pulse (-V) from the drive signal generation unit 51 is applied to the electrode 29B of the channel 28B to be contracted, both the partition walls 27B and 27C of the channel 28B to be contracted cause shear deformation in a joining surface between the piezoelectric elements 27a and 27b in the opposite direction to that at the time of the expansion described above.
- both the partition walls 27B and 27C are bent and deformed toward the inside of the channel 28B to contract the volume of the channel 28B to be contracted.
- a positive pressure wave is generated in the channel 28B, and a liquid droplet is ejected via the corresponding nozzle 23.
- the contraction pulse is a pulse that contracts the volume of the channel 28 from the volume in a steady state, changes the voltage from a reference voltage GND to a crest value voltage -V, holds the crest value voltage -V for a predetermined time, and then changes the voltage again to the reference voltage GND.
- the pulse is a rectangular wave of a constant voltage crest value, and refers to a waveform in which both rise time and fall time between 10% and 90% of the voltage are within 1/2 of an acoustic length (AL), and preferably within 1/4 thereof if the reference voltage GND is 0% and the crest value voltage is 100% in a case where the channel 28 has a straight shape as in the present embodiment.
- AL is an abbreviation for acoustic length, and refers to 1/2 of an acoustic resonance period of a pressure wave in the straight-shaped channel 28.
- AL is determined as a pulse width at which a flying speed of a liquid droplet ejected at the time of applying a rectangular wave drive signal to a drive electrode is maximized when the flying speed of the liquid droplet is measured, and a voltage value of the rectangular wave is fixed and a pulse width of the rectangular wave is changed.
- the pulse width is defined as time between the rise 10% from the reference voltage GND and the fall 10% from the crest value voltage.
- the drive signal is not limited to a rectangular wave, and may be a trapezoidal wave or the like.
- adjacent channels cannot be expanded or contracted at the same time, and therefore so-called three-cycle driving is preferably performed.
- three-cycle driving all the channels are divided into three groups, and adjacent channels are controlled in a time division manner.
- the present invention can also be applied to a so-called independent type liquid droplet ejection head in which an ejection channel and a channel (dummy channel) not performing ejection are alternately disposed.
- the independent type liquid droplet ejection head adjacent channels can be expanded or contracted at the same time, and therefore it is not necessary to perform three-cycle driving, and independent driving can be performed.
- Fig. 5 is a longitudinal cross-sectional view illustrating the shape of a nozzle in this liquid droplet ejection head.
- the inside of the nozzle 23 has a conical portion 23a with a diameter becoming gradually smaller toward an outside from a front end of the channel 28, and a cylindrical portion 23b continuous with the conical portion 23a and communicating with the outside on the front side.
- the internal volume of the nozzle 23 is increased to improve pumping capability, and pressure can be applied to a meniscus drawn into the nozzle 23 from a plurality of directions. Therefore, it is possible to reduce viscous resistance of the liquid to prevent pointed-end ejection.
- a connecting part of the conical portion 23a to the cylindrical portion 23b has the same opening cross-sectional shape as a connecting part of the cylindrical portion 23b to the conical portion 23a, and the conical portion 23a and the cylindrical portion 23b are smoothly and continuously connected to each other without a step.
- the conical portion 23a has an axial length L1 of 0.6D 0 or more.
- a generating line of a conical surface has an angle ⁇ (taper angle) of 6 degrees or more and 15 degrees or less with respect to a nozzle central axis.
- a length L2 of the cylindrical portion 23b is 0.1D 0 to 0.3D 0 .
- Fig. 6 is a graph illustrating a relationship between the axial length L1 of the conical portion 23a and ejection bending (deviation of ejection angle).
- axial length L1 of the conical portion 23a is set to 0.6D 0 or more is that, as illustrated in Fig. 6 , if the length L1 is shorter than 0.6D 0 , ejection bending is easily induced, and the ejection bending angle exceeds 0.2°. An ejection bending angle of 0.2° or less is desirable because an influence on image quality is small.
- Fig. 6 illustrates the following,
- Fig. 6 indicates that the ejection bending angle is 0.2° or less when the angle ⁇ is 0 degrees to 15 degrees, the length L2 is 0.2D 0 , and the length L1 is 0.6D 0 or more.
- Fig. 7 is a graph illustrating a relationship between the angle ⁇ of a generating line of a conical surface of the conical portion 23a with respect to a nozzle central axis and the shape of a liquid droplet.
- a reason why the angle ⁇ of a generating line of a conical surface of the conical portion 23a with respect to a nozzle central axis is set to 6 degrees or more is that the liquid forming an ejected liquid droplet concentrates on a tip side of the liquid droplet as illustrated in Fig. 7 .
- the concentration of the liquid on the tip side of the liquid droplet in Fig. 7 is indicated by a distance Z from the tip of the liquid droplet to a position where 80% from the tip of the liquid droplet of the liquid forming the liquid droplet passes.
- Fig. 8 is a schematic diagram illustrating the shape of a droplet to be ejected from the liquid droplet ejection head.
- Fig. 9 is a schematic diagram illustrating the shape of a liquid droplet that has been ejected from the liquid droplet ejection head.
- the liquid in a course of the liquid droplet flying toward a recording medium, the liquid is divided into a plurality of liquid droplets including one main liquid droplet to become the main liquid droplet and a satellite, and the main droplet and the satellite reach the recording medium.
- the satellite reaches a place different from the main liquid droplet on the recording medium, and therefore image quality is deteriorated.
- the angle ⁇ of a generating line of a conical surface of the conical portion 23a with respect to a nozzle central axis needs to be 6 degrees or more.
- the angle ⁇ needs to be 15 degrees or less.
- Fig. 10 is a graph illustrating a relationship between the axial length L2 of the cylindrical portion 23b and ejection bending (deviation of ejection angle).
- a reason why the length L2 of the cylindrical portion 23b is set to 0.1D 0 or more is that, as illustrated in Fig. 10 , if the length L2 is less than 0.1D 0 , the ejection bending angle exceeds 0.2°. Note that Fig. 10 illustrates a case where the length L1 is 0.6D 0 and the angle ⁇ is 15 degrees.
- the actual dimensions of the length L2 of the cylindrical portion 23b in a case where the inner diameter D 0 of the cylindrical portion 23b is 25 ⁇ m are illustrated as reference dimensions.
- the length L2 of the cylindrical portion 23b is 2.5 ⁇ m or more and 7.5 ⁇ m or less.
- the technical significance is clarified by Fig. 6 for the lower limit (0.6D 0 or more) of the axial length L1 of the conical portion 23a.
- the technical significance is clarified by Figs. 7 and 6 for the lower limit (6° or more) of the angle (taper angle) ⁇ of a generating line of a conical surface of the conical portion 23a with respect to a nozzle central axis and the upper limit (15° or less) thereof, respectively.
- the technical significance is clarified by Fig. 10 and Table 1 for the lower limit (0.1D 0 or more) of the axial length L2 of the cylindrical portion 23b and the upper limit (0.3D 0 or less) thereof, respectively.
- the inside of the nozzle 23 has the conical portion 23a and the cylindrical portion 23b. Therefore, pumping capability of the head is improved, pointed-end ejection is prevented, and ejection bending (deviation of ejection angle) at the time of ejecting a liquid droplet is reduced to form a favorable image without image quality deterioration.
- this liquid droplet ejection head by disposing the cylindrical portion 23b on a front end side of the nozzle 23, dimensional accuracy of the inner diameter of the nozzle 23 can be improved particularly in a case where the nozzle plate 22 is made of a silicon material. If the conical portion 23a reaches a surface (front surface) of the nozzle plate 22 without disposing the cylindrical portion 23b, a slight inclination of the conical portion 23a and a slight error of the taper angle affect the inner diameter dimensions of a front end opening of the nozzle 23, and it is difficult to maintain the accuracy of the inner diameter dimensions.
- Fig. 11 is a longitudinal cross-sectional view illustrating another example of the shape of the nozzle 23 in the liquid droplet ejection head of the embodiment.
- the nozzle 23 may have a conical or pyramidal portion (funnel portion) 23c between a front end of the channel 28 and a rear end portion of the conical portion 23a.
- This conical or pyramidal portion 23c has a diameter becoming gradually smaller from a front end of the channel 28 to the front end of the conical or pyramidal portion 23c to smoothly connect the channel 28 and the conical portion 23a to each other.
- an angle ⁇ of a generating line with respect to a nozzle central axis is preferably 15 degrees or more and 50 degrees or less.
- the conical or pyramidal portion 23c between the channel 28 and the conical portion 23a may be a regular quadrangular pyramidal portion 23c.
- This regular quadrangular pyramidal portion 23c can be formed by anisotropic etching of a single crystal silicon material using (110) plane and (111) plane of a silicon crystal. Therefore, in the regular quadrangular pyramidal portion 23c, an angle ⁇ of an inclined plane portion with respect to a nozzle central axis is about 35.26 degrees which is an angle formed by (110) plane and (111) plane of a silicon crystal.
- a scallop strip may be present on an inner surface of the cylindrical portion 23b of the nozzle 23.
- the scallop strip present on the inner surface of the cylindrical portion 23b of the nozzle 23 can be formed by a scalloping process.
- the scalloping process is a process of repeating a masking step and an etching step in a dry etching process of a single crystal silicon material to drill a hole having a desired shape.
- a masking position changes for each step, and a scallop strip formed of fine unevenness is thereby formed. Since such a callop strip is formed of fine unevenness, the inner surface of the cylindrical portion 23b can be regarded as a flat surface even if the scallop strip is present, and the scallop strip does not affect an action of the cylindrical portion 23b.
- a drive signal supplied by the drive signal generation unit 51 may be a signal (multi-drop signal) for causing each nozzle 23 to eject a plurality of liquid droplets within one pixel period.
- the present invention is particularly effective in a case where each nozzle 23 ejects a plurality of liquid droplets within one pixel period to make so-called gradation expression possible, and is highly useful in such a case.
- the line type liquid droplet ejection apparatus has been described.
- the present invention is not limited thereto, and can also be preferably applied to a serial type (also referred to as a shuttle type) liquid droplet ejection apparatus that performs recording while performing reciprocating motion (shuttle motion) in a direction orthogonal to a conveyance direction of a recording medium.
- the distortion form of the piezoelectric element in the liquid droplet ejection head is not particularly limited, and the present invention can be preferably applied to, for example, a bend mode type or a longitudinal mode (also referred to as a push mode or a direct mode) type in addition to the shear mode type.
- the present invention can be applied to various liquid droplet ejection apparatuses regardless of the distortion form of the piezoelectric element, the volume/shape of the channel, and the like as long as the liquid droplet ejection apparatuses eject a liquid from a nozzle by changing the volume of a channel filled with the liquid.
- the present invention can also be applied to a so-called independent type liquid droplet ejection head.
- the independent type liquid droplet ejection head adjacent channels can be expanded or contracted at the same time, and independent driving can be performed.
- Fig. 12 is a view illustrating an example of a so-called MEMS type liquid droplet ejection head in which a plurality of channels is two-dimensionally disposed.
- Fig. 12(a) is a cross-sectional view as seen from a side
- Fig. 12(b) is a bottom view of a nozzle surface as seen from a bottom surface
- the present invention can also be applied to a so-called MEMS liquid droplet ejection head.
- the so-called MEMS type liquid droplet ejection head has a liquid manifold 70 constituting the common liquid chamber 71.
- An open bottom portion of the liquid manifold 70 is covered by an upper substrate 75.
- the inside of the common liquid chamber 71 is filled with a liquid supplied,
- a lower substrate 76 is disposed parallel to the upper substrate 75. Between the upper substrate 75 and the lower substrate 76, a plurality of piezoelectric elements 78 is disposed. A drive signal is applied to these piezoelectric elements 78 via a wiring pattern (not illustrated) formed on a lower surface of the upper substrate 75. A plurality of channels 73 is disposed corresponding to these piezoelectric elements 78, respectively. These channels 73 are through holes formed in the lower substrate 76. Upper portions of the channels 73 are covered by the corresponding piezoelectric element 78, and bottom portions thereof are covered by a nozzle plate 77. The nozzle plate 77 is bonded to a lower surface of the lower substrate 76.
- each of the channels 73 communicates with the common liquid chamber 71 via an injection hole 72 formed through the upper substrate 75 and the lower substrate 76 corresponding to each of the channels 73 and a groove formed on an upper surface of the nozzle plate 77.
- a liquid in the common liquid chamber 71 is supplied into each of the channels 73 via the injection hole 72 and the groove formed on the upper surface of the nozzle plate 77.
- each of the channels 73 communicates with the outside (lower side) via a nozzle 74 formed in the nozzle plate 77 corresponding to each of the channels 73.
- the nozzles 74 are two-dimensionally disposed on a lower surface of the nozzle plate 77.
- the piezoelectric elements 78 are also two-dimensionally disposed corresponding to the nozzles 74.
- the liquid droplet ejection apparatus may eject a liquid other than an ink.
- the liquid referred to herein only needs to be a material that can be ejected from the liquid droplet ejection apparatus.
- the liquid only needs to be a substance in a liquid phase, and includes a fluid material such as a liquid material having high or low viscosity, sol, gel water, another inorganic solvent, an organic solvent, a solution, a liquid resin, or a liquid metal (metallic melt).
- the liquid includes not only a liquid as one state of a substance but also a substance in which particles of a functional material formed of a solid material such as a pigment or metal particles are dissolved, dispersed, or mixed in a solvent, and the like.
- Representative examples of the liquid include an ink and a liquid crystal as described in the above embodiments.
- the "ink” includes various kinds of liquid compositions such as a general water-based ink and oil-based ink, a gel ink, and a hot melt ink.
- the liquid droplet ejection apparatus examples include a liquid droplet ejection apparatus that ejects a liquid containing a material such as an electrode material or a color material used for manufacturing, for example, a liquid crystal display, an electroluminescence (EL) display, a surface emitting display, or a color filter in a dispersed or dissolved form in a form of a liquid droplet.
- the liquid droplet ejection apparatus may be a liquid droplet ejection apparatus that ejects a bioorganic material used for manufacturing a biochip, a liquid droplet ejection apparatus that ejects a liquid serving as a sample used as a precision pipette, or the like.
- the liquid droplet ejection apparatus may be a liquid droplet ejection apparatus that ejects a lubricating oil at a pinpoint to a precision machine such as a watch or a camera, or a liquid droplet ejection apparatus that ejects a transparent resin liquid such as an ultraviolet curable resin onto a substrate in order to form a hemispherical lens (optical lens) used for an optical communication element or the like.
- the liquid droplet ejection apparatus may be a liquid droplet ejection apparatus that ejects an etching liquid such as an acid or an alkali for etching a substrate or the like.
- liquid droplet ejection head and liquid droplet ejection apparatus by reducing viscosity resistance of a liquid to be ejected on an ejection side of the nozzle 74, pointed-end ejection is prevented, and accuracy of an ejection angle is improved.
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- Engineering & Computer Science (AREA)
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Applications Claiming Priority (2)
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JP2016178011 | 2016-09-12 | ||
PCT/JP2017/029098 WO2018047576A1 (fr) | 2016-09-12 | 2017-08-10 | Tête d'éjection de gouttelettes de liquide et appareil d'éjection de gouttelettes de liquide |
Publications (3)
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EP3511167A1 true EP3511167A1 (fr) | 2019-07-17 |
EP3511167A4 EP3511167A4 (fr) | 2019-09-25 |
EP3511167B1 EP3511167B1 (fr) | 2022-04-27 |
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EP17848520.7A Active EP3511167B1 (fr) | 2016-09-12 | 2017-08-10 | Tête d'éjection de gouttelettes de liquide et appareil d'éjection de gouttelettes de liquide |
Country Status (5)
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US (1) | US10744765B2 (fr) |
EP (1) | EP3511167B1 (fr) |
JP (3) | JPWO2018047576A1 (fr) |
CN (1) | CN109689373B (fr) |
WO (1) | WO2018047576A1 (fr) |
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CN109689373B (zh) * | 2016-09-12 | 2021-10-22 | 柯尼卡美能达株式会社 | 液滴排出头和液滴排出装置 |
JP7536467B2 (ja) * | 2020-02-28 | 2024-08-20 | キヤノン株式会社 | 液体吐出ヘッド |
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JP2003237067A (ja) * | 2002-02-14 | 2003-08-26 | Matsushita Electric Ind Co Ltd | インクジェットヘッド及び記録装置 |
US20040017430A1 (en) * | 2002-07-23 | 2004-01-29 | Yosuke Mizuyama | Laser processing method and laser processing apparatus |
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JP4881266B2 (ja) * | 2006-09-14 | 2012-02-22 | ブラザー工業株式会社 | 液体吐出ヘッド及びその制御方法 |
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JP2015107556A (ja) | 2013-12-03 | 2015-06-11 | 株式会社東芝 | インクジェットヘッド |
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CN109689373B (zh) * | 2016-09-12 | 2021-10-22 | 柯尼卡美能达株式会社 | 液滴排出头和液滴排出装置 |
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2017
- 2017-08-10 CN CN201780054887.4A patent/CN109689373B/zh active Active
- 2017-08-10 US US16/331,017 patent/US10744765B2/en active Active
- 2017-08-10 WO PCT/JP2017/029098 patent/WO2018047576A1/fr active Application Filing
- 2017-08-10 JP JP2018538322A patent/JPWO2018047576A1/ja active Pending
- 2017-08-10 EP EP17848520.7A patent/EP3511167B1/fr active Active
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2021
- 2021-11-01 JP JP2021178551A patent/JP7001195B1/ja active Active
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JP2022028053A (ja) | 2022-02-14 |
JP7001195B1 (ja) | 2022-01-24 |
EP3511167B1 (fr) | 2022-04-27 |
CN109689373A (zh) | 2019-04-26 |
CN109689373B (zh) | 2021-10-22 |
US10744765B2 (en) | 2020-08-18 |
JPWO2018047576A1 (ja) | 2019-06-24 |
EP3511167A4 (fr) | 2019-09-25 |
WO2018047576A1 (fr) | 2018-03-15 |
US20190255846A1 (en) | 2019-08-22 |
JP2022025115A (ja) | 2022-02-09 |
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